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Beyond day and night: The importance of ultradian rhythms in mouse physiology

Vojtěch Škop, Naili Liu, Cuiying Xiao, Emma J. Stinson, Kong Y. Chen, Kevin D. Hall, Paolo Piaggi, Oksana Gavrilova, Marc L. Reitman

2024Molecular Metabolism15 citationsDOIOpen Access PDF

Abstract

Our circadian world shapes much of metabolic physiology. In mice ∼40% of the light and ∼80% of the dark phase time is characterized by bouts of increased energy expenditure (EE). These ultradian bouts have a higher body temperature (Tb) and thermal conductance and contain virtually all of the physical activity and awake time. Bout status is a better classifier of mouse physiology than photoperiod, with ultradian bouts superimposed on top of the circadian light/dark cycle. We suggest that the primary driver of ultradian bouts is a brain-initiated transition to a higher defended Tb of the active/awake state. Increased energy expenditure from brown adipose tissue, physical activity, and cardiac work combine to raise Tb from the lower defended Tb of the resting/sleeping state. Thus, unlike humans, much of mouse metabolic physiology is episodic with large ultradian increases in EE and Tb that correlate with the active/awake state and are poorly aligned with circadian cycling.

Topics & Concepts

Ultradian rhythmCircadian rhythmThermoregulationBiologyEnergy expenditureRhythmphotoperiodismPhysiologyEndocrinologyInternal medicineMedicineCircadian rhythm and melatoninAdipose Tissue and MetabolismDietary Effects on Health